CN1653217A - Electrically conductive yarn - Google Patents

Abstract

An electrically conductive yarn comprises stainless steel fibers with a specific stainless steel electrical resistance. The stainless steel fibers are coated with a metal coating, consisting of a metal material having a specific electrical resistance, smaller than the specific electrical resistance stainless steel.

Description

Conductive yarn

Invention field

The present invention relates to a kind of metallic conduction yarn and a kind ofly be used to make this metallic conduction method of yarn.

Background of invention

Conductive yarn is known in the art.

Conductive yarn can be that make on the basis with non-metallic conducting material (for example carbon fiber), also can make based on fiber with metalline or metal fibre.

If obtain lower resistance, preferably adopt filament yarn.

This filament yarn can comprise one group of metal filament of being twisted together, for example stainless steel long filament.But existing these yarns comprise many diameters greater than 100 microns long filament, so just make these filament yarns more as thinner and hard metallic cable relatively.

In addition, also be known by diameter less than the stainless steel fibre yarn that 30 microns stainless steel fibre constitutes.

Because stainless steel has higher resistivity, so the less yarn of resistance will have thicker structure (perhaps higher fineness is represented by Tex, and unit is g/km).This coarse yarn can become very loose because of the flexibility of yarn texture.

Summary of the invention

The object of the present invention is to provide a kind of metallic conduction yarn, in this conductive yarn, the resistance value of every linear meter(lin.m.) is less, and its flexibility the textile strand with traditional is identical at least.

Yarn as the present invention's theme comprises many stainless steel fibres.These stainless steel fibres are coated with layer of metal (being referred to as " metal coating " hereinafter).This metal coating is to be made of a kind of the same metal material with less resistive rate of stainless steel alloy used with making stainless steel fibre.

By making the yarn as the present invention's theme have certain cross section, and the percentage that makes the weight of metal coating and this conductive yarn gross weight is preferably less than 50% (percentage by weight), preferably less than 40% (percentage by weight).The percentage of metal coating and conductive yarn gross weight is preferably greater than 1% (percentage by weight), more preferably greater than 5% (percentage by weight).

The average maximum ga(u)ge of this metal coating is preferably less than 8 microns, preferably less than 4 microns.The average maximum ga(u)ge of this metal coating is more preferably greater than 0.01 micron.If average maximum ga(u)ge is less, so just can not be on as the whole length of the yarn of the present invention's theme the reliable resistance of formation.

The maximum ga(u)ge of metal coating should be understood that: metal level is as the maximum ga(u)ge in the radial cross-section of the yarn of the present invention's theme.Average maximum ga(u)ge can be and is interpreted as: by to after measuring as a plurality of different radial cross-sections of the yarn of the present invention's theme, the mean value of measured maximum ga(u)ge, and the concrete quantity of the cross section of surveying be decided by the statistical method that adopted, for example MIL standard.

For for the yarn of the present invention's theme, all be provided with a metal coating that thickness is identical around being preferably in each stainless steel fibre in this conductive yarn, but this not necessarily.

This metal coating also can only be arranged on facing on the outer surface of these fibers, promptly is arranged on the outside of this conductive yarn." face outer surface " should be understood that the local mantle surface of fiber, rather than the surface of other fibers in this conductive yarn.

This metal coating preferably is made of copper, aluminium, silver, gold, nickel, titanium, tungsten, zinc, chromium, tin, platinum, copper alloy, aluminium alloy, silver alloy, billon, nickel alloy, titanium alloy, tungsten alloy, kirsite, evanohm, ashbury metal, platinum alloy and composition thereof.Preferably adopt copper or copper alloy.The resistivity of metal coating is preferably between 15 to 500 Ω * mm ²In the scope of/km, but preferably between 15 to 90 Ω * mm ²In the scope of/km.

A kind of conductive fiber comprises many stainless steel fibres, and these stainless steel fibres can be the stainless steel long filaments of being made by the stainless steel artificial fibre.

Yarn as the present invention's theme comprises a branch of above stainless steel long filament.These tow comprise many stainless steel long filaments.These tow can be provided with coating, afterwards, and by the tow of these band coatings being twisted and/or pooling capital and it is become yarn.Perhaps, these can form yarn by twisting and/or plying by the tow that stainless steel filament constitutes, and utilize metal alloy that this yarn is applied, and this is a theme of the present invention.

As a kind of alternative structure, can comprise many stainless steel fibres as the conductive yarn of the present invention's theme, these stainless steel fibres all are artificial fibres, and are at first twisted with the fingers into the sub-thread conductive yarn.Then, just a plurality of sub-thread conductive yarns can be twisted into the conductive yarn that multiply forms through twisting.Next, just can utilize metal coating that this sub-thread or multiply conductive yarn are applied, Here it is theme of the present invention place.Perhaps, also can apply and with the stainless steel fibre of its disrumpent feelings Cheng Duogen band coating, utilize the suitable yarn method of giving that it is twisted with the fingers sub-thread or multiply conductive yarn as the present invention's theme then a branch of stainless steel long filament.

These stainless steel fibres preferably adopt the fiber of equivalent diameter between 0.5 to 50 micron, and this equivalent diameter is most preferably in 1 micron to 25 microns scope.The equivalent diameter of fiber should be understood that an imaginary diameter of a circle, and the cross section of this imaginary circle and fiber has identical surface areas.

Stainless steel alloy preferably adopts the product of AISI300 series or AISI400 series, for example AISI302, AISI316 or AISI316L or AISI430.Stainless steel alloy also can be a kind of iron-chrome-aluminium-alloy (for example fecralloy ) or nickel-chromium-aluminium alloy.Resistivity is preferably between 500 to 900 Ω * mm ²In the scope of/km.

Preferably include in stainless steel fibre bundle or its unit cross section of each sub-thread conductive yarn and be less than 1000 stainless steel fibre, and the stainless steel fibre quantity of each conductive yarn in the unit cross section is most preferably less than 3000 fibers.

Different according to the thickness of the quantity of stainless steel long filament in the tow and coating and coating metal alloy, can obtain conductive yarn as the present invention's theme, its linear resistance (Ω/m) preferably in the scope of 0.1 to 400 Ω/m, preferably less than 400 Ω/m or even less than 100 Ω/m, for example less than 80 Ω/m.Linear resistance (Ω/m) be preferably greater than 0.1 Ω/m or even greater than 0.2 Ω/m, 0.2 Ω/m for example, 0.5 Ω/m, 2 Ω/m, 7 Ω/m, 14 Ω/m.

Relevant therewith, (Ω/g) can be reduced to does not have 25% or 10% of the resistance value of the stainless steel of coating conductive yarn on unit fineness (perfineness) as the resistance on its Unit Weight of conductive yarn of the present invention's theme.

Can utilize multiple painting method that metal coating is coated on the stainless steel fibre bundle.

This metal coating preferably utilizes the electrochemistry coating method to finish.But, also can adopt dipping, gas phase to apply or the plasma coated method.

Yarn as the present invention's theme for example can be used for providing the conductive yarn that can carry out in electrically heated textiles or the fabric.

Because the yarn as the present invention's theme has good flexibility, so these yarns can be processed to not exist woven fabric, braided fabric or the knit goods of significant deficiency.

On the other hand, resistance can change at an easy rate, because metal layer thickness can be regulated by multiple easy mode.

This conductive yarn preferably is applied to for example being used for heatable fabric, clothes or blanket in the field of textiles, perhaps is used to provide heatable automotive seat and cover for seat.This conductive yarn for example can also be used for the conductive electric current and/or the signal of telecommunication in woven fabric or knit goods.

Description of drawings

Below with reference to accompanying drawings the present invention is described in detail, wherein:

Fig. 1,2 and 3 schematically shows the radial cross-section as the conductive yarn of the present invention's theme.

The specific embodiment

As an example, it is 12 microns long filament that sub-thread stainless steel fibre bundle includes 275 equivalent diameters, and this fibre bundle also is coated with a copper layer.These stainless steel long filaments can be made by AISI316L, and at every meter length upper edge Z direction twisting 100 circles.The fineness of this yarn is 250Tex, and its linear resistance is 30 Ω/m, and the resistance of Unit Weight is 120 Ω/g.

This sub-thread stainless steel fibre bundle is coated with a copper coating, and the maximum ga(u)ge of this coating is 6 microns, and 48 milligrams every meter copper utilizes galvanoplastic to apply.Its fineness of conductive yarn as the present invention's theme is 298Tex, and linear resistance only is 4 Ω/m.Resistance value as this its Unit Weight of conductive yarn of the present invention's theme is 13.4 Ω/g.

Fig. 1 schematically shows the radial cross-section as the conductive yarn 11 of the present invention's theme.Many stainless steel fibres 12 are stranded in together, and plurality of threads 13 has part towards away from this conductive yarn and the mantle surface 14 outside facing.Copper coating 15 is applied to this and faces on the outer mantle surface.The maximum ga(u)ge of this coating is 16.The average maximum ga(u)ge that records is 6 microns.

This its resistivity of stainless steel AISI316L fiber is 983 Ω * mm ²/ km, and the resistivity of copper coating is 17 Ω * mm ²/ km.

Fig. 2 shows the radial cross-section as another conductive yarn of the present invention's theme.Two above-mentioned conductive yarns 21 (being represented by Reference numeral 11 in Fig. 1) are stranded in together, thereby form a bifilar conductive yarn 22 as the present invention's theme.So just formed a kind of conductive yarn of the theme as the present invention, the linear resistance of this conductive yarn is about 2 Ω/m.

Fig. 3 shows the cross section according to further embodiment of this invention.To include 275 equivalent diameters be 12 microns long filament to two bundle stainless steel fibres and be stranded in together, thereby form a conductive yarn with two strands.This two strands of conductive yarns 31 are coated with layer of copper 32.This layer copper only is arranged on the fiber mantle surface of fiber 33, and this mantle surface is towards the outside as the conductive yarn of the present invention's theme.Be with the difference of embodiment shown in Figure 2: at the mantle surface coating of tow towards the long filament of outside.

The yarn of making like this can be used as the heating element heater (resistance heated) in Woven fabric or the knit goods, thereby is used as heatable fabric, so just can heat the seat of automobile or the fabric that is used to cover automotive seat is heated.

Claims (15)

1, a kind of conductive yarn, it comprises many stainless steel fibres, described stainless steel fibre has certain electric resistance of stainless rate, it is characterized in that: described stainless steel fibre is coated with a metal coating, and described metal coating is lower than stainless metal material by resistivity and constitutes.

2, according to the conductive yarn of claim 1, it is characterized in that: described metal coating accounts for the percentage by weight of described conductive yarn gross weight less than 50%.

3, according to the conductive yarn of claim 1 or 2, it is characterized in that: described metal coating accounts for the percentage by weight of described conductive yarn gross weight greater than 1%.

4, according to the conductive yarn of claim 1 to 3, it is characterized in that: the maximum ga(u)ge of described metal coating is less than 8 microns.

5, according to the conductive yarn of claim 1 to 4, it is characterized in that: the maximum ga(u)ge of described metal coating is greater than 0.01 micron.

6, according to the conductive yarn of claim 1 to 5, it is characterized in that: described stainless steel fibre has the equivalent diameter in the scope that falls into 0.5 to 50 micron.

7, according to the conductive yarn of claim 1 to 6, it is characterized in that: described metal coating is made of a kind of element of selecting from following this group material: copper, aluminium, silver, gold, nickel, titanium, tungsten, zinc, chromium, tin, platinum, copper alloy, aluminium alloy, silver alloy, billon, nickel alloy, titanium alloy, tungsten alloy, kirsite, evanohm, ashbury metal, platinum alloy and composition thereof.

8, according to the conductive yarn of claim 7, it is characterized in that: described metal coating is made of copper or copper alloy.

9, according to the conductive yarn of claim 1 to 8, it is characterized in that: described conductive yarn comprises the stainless steel fibre less than 3000 in its each cross section.

10, according to the conductive yarn of claim 1 to 9, it is characterized in that: the described linear resistance of described conductive yarn is less than 400 Ω/m.

11, according to the conductive yarn of claim 1 to 10, it is characterized in that: described stainless steel fibre is the stainless steel long filament.

12, according to the conductive yarn of claim 1 to 10, it is characterized in that: described stainless steel fibre is a stainless steel short fiber.

13, will be applied in the heatable textiles according to the conductive yarn that aforesaid right one of requires.

14, the conductive yarn according to one of aforesaid right requirement is used to provide a heatable automotive seat or cover for seat.

15, the conductive yarn according to one of aforesaid right requirement is used for the conductive electric current or the signal of telecommunication.